Giant Seebeck Effect in PEDOT Materials with Molecular Strain

Abstract

Poly 3,4-ethylenedioxythiophene (PEDOT) has been attracting attention as a thermoelectric material for room-temperature use due to its flexibility and non-toxicity. However, PEDOT reportedly generates insufficient thermoelectric power for practical use. This work tried to improve the Seebeck coefficient by introducing molecular strain to PEDOT molecules by loading a Polystyrene sulfonate (PSS)-free PEDOT on a Polyethyleneterephthalate (PET) fiber. Raman spectroscopy revealed the PEDOT materials with significant compression in the Cα-Cα bond and extension in the Cα=Ceta bond exhibit Seebeck coefficients two orders of magnitude larger than usual. Furthermore, strain in the Ceta-Ceta bond strongly correlated with the Seebeck coefficient that varied in a broad range from -2100 to 3100 μV K-1. This variation indicated that the molecular strain formed a sharp peak or valley around the Fermi level in the density of state (DOS) function, which gradually shifts along with the Ceta-Ceta strain. This molecular strain-induced giant Seebeck effect is expected to be an applicable technique for other polythiophene molecules.

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